A very-high-energy component deep in the Gamma-ray Burst afterglow

H. Abdalla R. Adam F. Aharonian F. Ait Benkhali E.O. Anguener M.; Arakawa; C. Arcaro; C. Armand; H. Ashkar; M. Backes; V. Barbosa Martins; M.; Barnard Y. Becherini; D. Berge; K. Bernloehr; E. Bissaldi; R. Blackwell; M.; Boettcher; C. Boisson; J. Bolmont; S. Bonnefoy; J. Bregeon; M. Breuhaus; F.; Brun; P. Brun; M. Bryan; M. Buechele; T. Bulik; T. Bylund; M. Capasso; S.; Caroff; A. Carosi; S. Casanova; M. Cerruti; T. Chand; S. Chandra; A. Chen; S.; Colafrancesco; M. Curylo; I.D. Davids; C. Deil; J. Devin; P. deWilt; L.; Dirson; A. Djannati-Atai; A. Dmytriiev; A. Donath; V. Doroshenko; J. Dyks; K.; Egberts; G. Emery; J.-P. Ernenwein; S. Eschbach; K. Feijen; S. Fegan; A.; Fiasson; G. Fontaine; S. Funk; M. Fuessling; S. Gabici; Y.A. Gallant; F.; Gate; G. Giavitto; L. Giunti; D. Glawion; J.F. Glicenstein; D. Gottschall,; M.-H. Grondin; J. Hahn; M. Haupt; G. Heinzelmann; G. Henri; G. Hermann; J.A.; Hinton; W. Hofmann; C. Hoischen; T. L. Holch; M. Holler; D. Horns; D. Huber,; H. Iwasaki; M. Jamrozy; D. Jankowsky; F. Jankowsky; A. Jardin-Blicq; I.; Jung-Richardt; M.A. Kastendieck; K. Katarzynski; M. Katsuragawa; U. Katz; D.; Khangulyan; B. Khelifi; J. King; S. Klepser; W. Kluzniak; N. Komin; K.; Kosack; D. Kostunin; M. Kreter; G. Lamanna; A. Lemiere; M. Lemoine-Goumard,; J.-P. Lenain; E. Leser; C. Levy; T. Lohse; I. Lypova; J. Mackey; J. Majumdar,; D. Malyshev; V. Marandon; A. Marcowith; A. Mares; C. Mariaud; G.; Marti-Devesa; R. Marx; G. Maurin; P.J. Meintjes; A.M.W. Mitchell; R.; Moderski; M. Mohamed; L. Mohrmann; C. Moore; E. Moulin; J. Muller; T. Murach,; S. Nakashima; M. de Naurois; H. Ndiyavala; F. Niederwanger; J. Niemiec; L.; Oakes; P. O Brien; H. Odaka; S. Ohm; E. de Ona Wilhelmi; M. Ostrowski; I.; Oya; M. Panter; R.D. Parsons; C. Perennes; P.-O. Petrucci; B. Peyaud; Q.; Piel; S. Pita; V. Poireau; A. Priyana Noel; D.A. Prokhorov; H. Prokoph; G.; Puehlhofer; M. Punch; A. Quirrenbach; S. Raab; R. Rauth; A. Reimer; O.; Reimer; Q. Remy; M. Renaud; F. Rieger; L. Rinchiuso; C. Romoli; G. Rowell; B.; Rudak; E. Ruiz-Velasco; V. Sahakian; S. Sailer; S. Saito; D.A. Sanchez; A.; Santangelo; M. Sasaki; R. Schlickeiser; F. Schuessler; A. Schulz; H.M.; Schutte; U. Schwanke; S. Schwemmer; M. Seglar-Arroyo; M. Senniappan; A.S.; Seyffert; N. Shafi; K. Shiningayamwe; R. Simoni; A. Sinha; H. Sol; A.; Specovius; M. Spir-Jacob; L. Stawarz; R. Steenkamp; C. Stegmann; C. Steppa,; T. Takahashi; T. Tavernier; A.M. Taylor; R. Terrier; D. Tiziani; M.; Tluczykont; C. Trichard; M. Tsirou; N. Tsuji; R. Tuffs; Y. Uchiyama; D.J. van; der Walt; C. van Eldik; C. van Rensburg; B. van Soelen; G. Vasileiadis; J.; Veh; C. Venter; P. Vincent; J. Vink; H.J. Voelk; T. Vuillaume; Z. Wadiasingh,; S.J. Wagner; R. White; A. Wierzcholska; R. Yang; H. Yoneda; M. Zacharias; R.; Zanin; A.A. Zdziarski; A. Zech; A. Ziegler; J. Zorn; N. Zywucka; F. de; Palma; M. Axelsson; O.J. Roberts

arXiv:1911.08961·astro-ph.HE·November 21, 2019

A very-high-energy component deep in the Gamma-ray Burst afterglow

H. Abdalla R. Adam F. Aharonian F. Ait Benkhali E.O. Anguener M., Arakawa, C. Arcaro, C. Armand, H. Ashkar, M. Backes, V. Barbosa Martins, M., Barnard Y. Becherini, D. Berge, K. Bernloehr, E. Bissaldi, R. Blackwell, M., Boettcher, C. Boisson, J. Bolmont, S. Bonnefoy, J. Bregeon

PDF

TL;DR

This paper reports the detection of very-high-energy gamma-ray emission deep in the afterglow phase of a gamma-ray burst, providing new insights into the emission mechanisms and environment of GRBs at late times.

Contribution

It presents the first observation of very-high-energy emission in the GRB afterglow occurring ten hours post prompt phase, constraining emission models and environment conditions.

Findings

01

Detection of VHE gamma-ray emission 10 hours after prompt phase

02

X-ray and gamma-ray fluxes remain comparable during afterglow

03

Inverse Compton emission may explain late-time VHE emission

Abstract

Gamma-ray bursts (GRBs) are brief flashes of gamma rays, considered to be the most energetic explosive phenomena in the Universe. The emission from GRBs comprises a short (typically tens of seconds) and bright prompt emission, followed by a much longer afterglow phase. During the afterglow phase, the shocked outflow -- produced by the interaction between the ejected matter and the circumburst medium -- slows down, and a gradual decrease in brightness is observed. GRBs typically emit most of their energy via gamma-rays with energies in the kiloelectronvolt-to-megaelectronvolt range, but a few photons with energies of tens of gigaelectronvolts have been detected by space-based instruments. However, the origins of such high-energy (above one gigaelectronvolt) photons and the presence of very-high-energy (more than 100 gigaelectronvolts) emission have remained elussive. Here we report…

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.